CN116891125A - High-speed shuttle roller way device - Google Patents

Abstract

The invention relates to a high-speed shuttle roller way device which comprises a shuttle hollow roller way, a first shuttle device, a second shuttle device and a shuttle synchronous belt roller way, wherein the shuttle synchronous belt roller way is connected with the shuttle hollow roller way through screws, the first shuttle device is connected with the second shuttle device, and the shuttle hollow roller way and the shuttle synchronous belt roller way are arranged on the first shuttle device and the second shuttle device. By adopting the high-speed shuttle roller way device, the glass conveying direction can be changed, and meanwhile, the next process of mutual rapid movement between the glass can be realized. The device can not only realize the rapid change of the glass conveying direction, but also realize the rapid movement of glass and glass by the unique transmission mode of mutual receiving and mutual switching of the double shuttle devices, thereby greatly improving the beat and the productivity of the conveying line body.

Description

High-speed shuttle roller way device

Technical Field

The invention relates to the field of industrial production, in particular to the field of glass production, and specifically relates to a high-speed shuttle roller way device.

Background

At present, after glass production, conveying is carried out by a roller way or a synchronous belt, and due to the production process and product characteristics, equipment is needed for realizing the change of the glass conveying direction and the mutual rapid movement of the next working procedure between glass.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the high-speed shuttle roller way device which has the advantages of simple structure, high production efficiency and wider application range.

In order to achieve the above object, the high-speed shuttle roller way device of the present invention is as follows:

the high-speed shuttle roller way device is mainly characterized by comprising a shuttle hollow roller way, a first shuttle device, a second shuttle device and a shuttle synchronous belt roller way, wherein the shuttle synchronous belt roller way is connected with the shuttle hollow roller way through screws, the first shuttle device is connected with the second shuttle device, the shuttle hollow roller way and the shuttle synchronous belt roller way are arranged on the first shuttle device and the second shuttle device, and the first shuttle device is arranged under the shuttle hollow roller way; the second shuttle equipment is arranged right below the shuttle synchronous belt roller way.

Preferably, the shuttle hollow roller way comprises a hollow roller way frame, a full rubber roller assembly, a gear shield assembly, a conveying power assembly and an adjusting anchor, wherein the hollow roller way frame is connected with the adjusting anchor and is fixed with the ground through an expansion bolt, and the full rubber roller assembly, the gear shield assembly and the conveying power assembly are all arranged on the hollow roller way frame; the full rubber rod assembly is used for supporting and conveying glass, the gear shield assembly is used for safety protection, pipe distribution, wiring and attractive equipment, and the conveying power assembly is used for adjusting the whole height of the roller way to adapt to the butt joint line body.

Preferably, the all-rubber roller assembly is formed by combining all rubber rollers and bevel gears, the gear shield assembly comprises a plurality of gear shields which are all plain carbon steel sheet metal parts, and the adjusting feet are formed by welding carbon steel.

Preferably, the first shuttle device comprises a first shuttle assembly and a first shuttle base, wherein the first shuttle assembly is mounted on the first shuttle base and is used for providing power for the first shuttle device and supporting and conveying glass.

Preferably, the first shuttle moving assembly comprises a first moving platform and a first lifting bearing, the first lifting bearing is mounted on a sliding block of the first moving platform to achieve lifting function, the first shuttle base comprises a first ground rail base, a rack and a linear guide rail, and the rack and the linear guide rail of the first shuttle base are matched with the first shuttle moving assembly to achieve transmission.

Preferably, the second shuttle comprises a second shuttle assembly and a second shuttle base, the second shuttle assembly being mounted on the second shuttle base, the second shuttle assembly powering the second shuttle and supporting the transport glass.

Preferably, the second shuttle moving assembly comprises a second moving platform and a second lifting bearing, the second shuttle base comprises a second ground rail base, a rack and a linear guide rail, and the rack and the linear guide rail of the second shuttle base are matched with the second shuttle moving assembly to realize transmission.

Preferably, the shuttle synchronous belt roller way comprises a shuttle roller way frame, a first belt single line body, a second belt single line body and a roller way conveying power assembly, wherein the shuttle roller way frame is fixed with the ground through expansion bolts, the first belt single line body and the roller way conveying power assembly are all installed on the shuttle roller way frame, the shuttle roller way frame is connected with a shuttle hollow roller way, and the first belt single line body and the second belt single line body are used for supporting and conveying glass.

By adopting the high-speed shuttle roller way device, the glass conveying direction can be changed, and meanwhile, the next process of mutual rapid movement between the glass can be realized. The device can not only realize the rapid change of the glass conveying direction, but also realize the rapid movement of glass and glass by the unique transmission mode of mutual receiving and mutual switching of the double shuttle devices, thereby greatly improving the beat and the productivity of the conveying line body.

Drawings

Fig. 1 is a perspective view of a high-speed shuttle roller way device of the present invention.

Fig. 2 is a front view of the high speed shuttle roller way device of the present invention.

Fig. 3 is a top view of the high speed shuttle roller way device of the present invention.

Reference numerals:

1 shuttle hollow roller way

1.1 hollow roller table frame

1.2 all-rubber stick assembly

1.3 Gear shroud Assembly

1.4 Power transmission Assembly

1.5 adjusting foot margin

2 first shuttle device

2.1 first shuttle Assembly

2.2 first shuttle base

3 second shuttle device

3.1 second shuttle Assembly

3.2 second shuttle base

4 shuttle synchronous belt roller way

4.1 shuttle roller table frame

4.2 first Belt Single thread

4.3 second Belt Single thread

4.4 roller way conveying power assembly

Detailed Description

In order to more clearly describe the technical contents of the present invention, a further description will be made below in connection with specific embodiments.

The high-speed shuttle roller way device comprises a shuttle hollow roller way 1, a first shuttle device 2, a second shuttle device 3 and a shuttle synchronous belt roller way 4, wherein the shuttle synchronous belt roller way 4 is connected with the shuttle hollow roller way 1 through screws, the first shuttle device 2 is connected with the second shuttle device 3, the shuttle hollow roller way 1 and the shuttle synchronous belt roller way 4 are arranged on the first shuttle device 2 and the second shuttle device 3, and the first shuttle device is arranged under the shuttle hollow roller way; the second shuttle equipment is arranged right below the shuttle synchronous belt roller way.

As a preferred embodiment of the invention, the shuttle hollow roller way 1 comprises a hollow roller way frame 1.1, a full rubber roller assembly 1.2, a gear shield assembly 1.3, a conveying power assembly 1.4 and an adjusting anchor 1.5, wherein the hollow roller way frame 1.1 is connected with the adjusting anchor 1.5 and is fixed with the ground through an expansion bolt, and the full rubber roller assembly 1.2, the gear shield assembly 1.3 and the conveying power assembly 1.4 are all arranged on the hollow roller way frame 1.1; the full rubber roller assembly 1.2 is used for supporting and conveying glass, the gear shield assembly 1.3 is used for safety protection, pipe distribution, wiring and attractive equipment, and the conveying power assembly 1.4 is used for adjusting the whole height of a roller table to adapt to a butt joint line body.

As a preferred embodiment of the invention, the all-rubber roller assembly 1.2 is made by combining all-rubber rollers with bevel gears, the gear shield assembly 1.3 comprises a plurality of gear shields which are all plain carbon steel sheet metal parts, and the adjusting foot margin 1.5 is formed by welding carbon steel.

As a preferred embodiment of the present invention, the first shuttle 2 comprises a first shuttle assembly 2.1 and a first shuttle base 2.2, wherein the first shuttle assembly 2.1 is mounted on the first shuttle base 2.2, and the first shuttle assembly 2.1 is used for powering and supporting the first shuttle 2 for conveying glass.

As a preferred embodiment of the present invention, the first shuttle moving assembly 2.1 includes a first moving platform and a first lifting support, the first lifting support is mounted on a slider of the first moving platform to implement a lifting function, the first shuttle base 2.2 includes a first ground rail base, a rack and a linear guide rail, and the rack and the linear guide rail of the first shuttle base 2.2 cooperate with the first shuttle moving assembly 2.1 to implement transmission.

As a preferred embodiment of the present invention, the second shuttle 3 comprises a second shuttle assembly 3.1 and a second shuttle base 3.2, wherein the second shuttle assembly 3.1 is mounted on the second shuttle base 3.2, and the second shuttle assembly 3.1 provides power to the second shuttle 3 and supports the glass.

As a preferred embodiment of the present invention, the second shuttle moving assembly 3.1 includes a second moving platform and a second lifting support, the second shuttle base 3.2 includes a second ground rail base, a rack and a linear guide rail, and the rack and the linear guide rail of the second shuttle base 3.2 cooperate with the second shuttle moving assembly 3.1 to implement driving.

As a preferred embodiment of the invention, the shuttle synchronous belt roller way 4 comprises a shuttle roller way frame 4.1, a first belt single line body 4.2, a second belt single line body 4.3 and a roller way conveying power assembly 4.4, wherein the shuttle roller way frame 4.1 is fixed with the ground through expansion bolts, the first belt single line body 4.2 and the roller way conveying power assembly 4.4 are all arranged on the shuttle roller way frame 4.1, the shuttle roller way frame 4.1 is connected with the shuttle hollow roller way 1, and the first belt single line body 4.2 and the second belt single line body 4.3 are used for supporting and conveying glass.

In the specific embodiment of the invention, the device comprises a shuttle hollow roller way 1, a first shuttle device 2, a second shuttle device 3 and a shuttle synchronous belt roller way 4, wherein the shuttle synchronous belt roller way 4 and the shuttle hollow roller way 1 are connected together through screws.

The shuttle hollow roller way comprises a hollow roller way frame 1.1, a full rubber roller assembly 1.2, a gear shield assembly 1.3, a conveying power assembly 1.4 and an adjusting anchor 1.5, wherein the hollow roller way frame 1.1 is connected with the adjusting anchor 1.5 and is fixed with the ground through an expansion bolt, and the full rubber roller assembly 1.2, the gear shield assembly 1.3 and the conveying power assembly 1.4 are all arranged on the hollow roller way frame 1.1.

The hollow roller way frame 1.1 is a basic body of the hollow roller way, the whole body is made of high-quality carbon structure by welding steel and then annealing treatment, the whole rigidity is high, a firm body is provided for the stable operation of the roller way, other components are directly or indirectly arranged on the hollow roller way frame 1.1, and the all rubber roller component 1.2 is formed by combining all rubber rollers and bevel gears and is used for supporting and conveying glass; the gear shield assembly 1.3 comprises a first gear shield and a gear shield 2 which are all plain carbon steel sheet metal parts, so that on one hand, the safety protection function is realized, and on the other hand, the pipe arrangement wiring and the equipment appearance are facilitated; the conveying power assembly 1.4 comprises a motor, a speed reducer, a main chain wheel, a chain protection cover and tensioning screws. The adjusting feet are formed by welding carbon steel and are used for adjusting the whole height of the roller way to adapt to the butt joint line body.

The first shuttle device 2 comprises a first shuttle assembly 2.1 and a first shuttle base 2.2, the first shuttle assembly 2.1 being mounted on the first shuttle base 2.2. The first shuttle moving assembly 2.1 comprises a first moving platform and a first lifting bearing, the shuttle equipment provides power and supports and conveys glass, the first shuttle base 2.2 comprises a first ground rail base, a rack and a linear guide rail, the first ground rail base is a basic body of the shuttle equipment, the whole shuttle equipment is made of high-quality carbon structures through steel welding and annealing treatment, the whole shuttle equipment is high in integral rigidity, and a firm body is provided for stable operation of the roller way. The rack and the linear guide rail are matched with the moving assembly to realize stable and rapid transmission.

In order to ensure the accuracy and stability of the position for conveying glass, on one hand, in terms of hardware, a servo motor high-precision speed reducer driving mode, a high-precision gear rack and a linear guide rail transmission mode are adopted, so that the positioning precision and the conveying stability are improved; on the other hand, in control, a PLC module and a speed control mode are adopted, so that the acceleration and deceleration time is shortened, and the beat is effectively improved.

The second shuttle 3 comprises a second shuttle assembly 3.1 and a second shuttle base 3.2, the second shuttle assembly 3.1 being mounted on the second shuttle base 3.2. The second shuttle moving assembly 3.1 comprises a second moving platform and a second lifting bearing, the shuttle equipment provides power and supports and conveys glass, the second shuttle base 3.2 comprises a second ground rail base, a rack and a linear guide rail, the second ground rail base is a basic body of the shuttle equipment, the whole shuttle equipment is made of high-quality carbon structures through steel welding and annealing treatment, the whole shuttle equipment is high in integral rigidity, and a firm body is provided for stable operation of the roller way. The rack and the linear guide rail are matched with the moving assembly to realize stable and rapid transmission.

In order to ensure the accuracy and stability of the position for conveying glass, on one hand, in terms of hardware, a servo motor high-precision speed reducer driving mode, a high-precision gear rack and a linear guide rail transmission mode are adopted, so that the positioning precision and the conveying stability are improved; on the other hand, in control, a PLC module and a speed control mode are adopted, so that the acceleration and deceleration time is shortened, and the beat is effectively improved.

The shuttle synchronous belt roller way 4 comprises a shuttle roller way frame 4.1, a first belt single-wire body 4.2, a second belt single-wire body 4.3 and a roller way conveying power component 4.4, wherein the shuttle roller way frame 4.1 is fixed with the ground through expansion bolts, and the first belt single-wire body 4.2, the first belt single-wire body 4.2 and the roller way conveying power component 4.4 are all arranged on the shuttle roller way frame 4.1. The shuttle roller way rack 4.1 is a basic body of the shuttle equipment and is connected with the shuttle hollow roller way 1 together, so that the shuttle equipment is firm and stable; the first belt single-wire body 4.2 and the second belt single-wire body 4.3 are used for supporting and conveying glass, and the roller way conveying power assembly 4.4 comprises a motor, a speed reducer, a main chain wheel, a chain protection cover and a tensioning screw.

The specific action flow of the device is as follows:

in the initial state, the first piece of glass is conveyed to the all-rubber roller assembly 1.2 through the previous working procedure, the all-rubber roller assembly 1.2 conveys the first piece of glass to a designated position, and the all-rubber roller assembly 1.2 stops conveying; the first shuttle moving assembly 2.1 is lifted to separate the first piece of glass from the all-rubber roller assembly 1.2, horizontally moves to the position above the shuttle synchronous belt roller way 4, and descends to place the glass on the first belt single-wire body 4.2 and the second belt single-wire body 4.3; the first belt single-wire body 4.2 and the second belt single-wire body 4.3 convey the first piece of glass to the next working procedure; while the first shuttle assembly 2.1 moves horizontally in the opposite direction; simultaneously, the full-glue stick assembly 1.2 conveys the second glass sheet to a designated position, and the full-glue stick assembly 1.2 stops conveying; the second shuttle moving assembly 3.1 is lifted to separate the second glass sheet from the all-rubber roller assembly 1.2, horizontally moves to the position above the shuttle synchronous belt roller way 4, and descends to place the glass on the first belt single-wire body 4.2 and the second belt single-wire body 4.3; the first belt single-wire body 4.2 and the second belt single-wire body 4.3 convey the first piece of glass to the next working procedure; simultaneously, the first shuttle moving assembly 2.1 moves horizontally in the opposite direction and then stops to wait for the third glass sheet; the second shuttle assembly 3.1 moves horizontally in the opposite direction to the initial position and the entire action is completed.

The specific implementation manner of this embodiment may be referred to the related description in the foregoing embodiment, which is not repeated herein.

It is to be understood that the same or similar parts in the above embodiments may be referred to each other, and that in some embodiments, the same or similar parts in other embodiments may be referred to.

It should be noted that in the description of the present invention, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "plurality" means at least two.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

By adopting the high-speed shuttle roller way device, the glass conveying direction can be changed, and meanwhile, the next process of mutual rapid movement between the glass can be realized. The device can not only realize the rapid change of the glass conveying direction, but also realize the rapid movement of glass and glass by the unique transmission mode of mutual receiving and mutual switching of the double shuttle devices, thereby greatly improving the beat and the productivity of the conveying line body.

In this specification, the invention has been described with reference to specific embodiments thereof. It will be apparent, however, that various modifications and changes may be made without departing from the spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (8)

1. The device is characterized by comprising a shuttle hollowed-out roller way, a first shuttle device, a second shuttle device and a shuttle synchronous belt roller way, wherein the shuttle synchronous belt roller way is connected with the shuttle hollowed-out roller way through screws, the first shuttle device is connected with the second shuttle device, the shuttle hollowed-out roller way and the shuttle synchronous belt roller way are arranged on the first shuttle device and the second shuttle device, and the first shuttle device is arranged under the shuttle hollowed-out roller way; the second shuttle equipment is arranged right below the shuttle synchronous belt roller way.

2. The high-speed shuttle roller way device according to claim 1, wherein the shuttle hollow roller way comprises a hollow roller way frame, a full rubber roller assembly, a gear shield assembly, a conveying power assembly and an adjusting anchor, wherein the hollow roller way frame is connected with the adjusting anchor and is fixed with the ground through an expansion bolt, and the full rubber roller assembly, the gear shield assembly and the conveying power assembly are all arranged on the hollow roller way frame; the full rubber rod assembly is used for supporting and conveying glass, the gear shield assembly is used for safety protection, pipe distribution, wiring and attractive equipment, and the conveying power assembly is used for adjusting the whole height of the roller way to adapt to the butt joint line body.

3. The high-speed shuttle roller way device according to claim 2, wherein the all-rubber roller assembly is made of an all-rubber roller and a bevel gear in combination, the gear shield assembly comprises a plurality of gear shields which are all plain carbon steel sheet metal parts, and the adjusting foot margin is formed by welding carbon steel.

4. The high speed shuttle roller way assembly of claim 1, wherein the first shuttle comprises a first shuttle assembly and a first shuttle base, the first shuttle assembly mounted to the first shuttle base, the first shuttle assembly configured to power the first shuttle and support the transport glass.

5. The high-speed shuttle roller way device according to claim 4, wherein the first shuttle moving assembly comprises a first moving platform and a first lifting bearing, the first lifting bearing is mounted on a sliding block of the first moving platform to realize a lifting function, the first shuttle base comprises a first ground rail base, a rack and a linear guide rail, and the rack and the linear guide rail of the first shuttle base are matched with the first shuttle moving assembly to realize transmission.

6. The high speed shuttle roller way assembly of claim 1, wherein the second shuttle comprises a second shuttle assembly and a second shuttle base, the second shuttle assembly mounted on the second shuttle base, the second shuttle assembly powering the second shuttle and supporting the transport glass.

7. The high speed shuttle roller way assembly according to claim 6, wherein the second shuttle assembly comprises a second platform and a second lifting support, the second shuttle base comprises a second ground rail base, a rack and a linear guide rail, and the rack and the linear guide rail of the second shuttle base cooperate with the second shuttle assembly to realize driving.

8. The high-speed shuttle roller way device according to claim 1, wherein the shuttle synchronous belt roller way comprises a shuttle roller way frame, a first belt single-wire body, a second belt single-wire body and a roller way conveying power assembly, the shuttle roller way frame is fixed with the ground through expansion bolts, the first belt single-wire body and the roller way conveying power assembly are all installed on the shuttle roller way frame, the shuttle roller way frame is connected with a shuttle hollow roller way, and the first belt single-wire body and the second belt single-wire body are used for supporting and conveying glass.